DE4439455A1 - Process for the production of coatings with three-dimensional optical effects - Google Patents

Description

The present invention relates to a new method for manufacturing provision of three-dimensional optical effects layers by aligning magnetically orientable, plat cheniform pigments.

Prints or varnishes, the three-dimensional optical characteristics show, are not only suitable for decorative purposes, but are especially of interest for the production of counterfeit-proof materials, especially for security printing, because they cannot be photocopied and therefore a slight un enable a distinction between original and forgery.

Such three-dimensional optical effects can be advantageous by aligning magnetic, platelet-shaped pigments in the still liquid application medium due to the influence of a magnet field generated and by subsequent curing of the application fixed mediums.

Magnetic alignment is already described in US Pat. No. 2,570,856 ferromagnetic metal pigments are described, however here not a practical method for the targeted production of three dimensions sional effects revealed.

From DE-A-39 38 055 there are various methods of production three-dimensional pattern by orienting magnetizable, platelet-shaped pigments, in particular of mica and Aluminum plate covered with a magnetic layer are or are mixed with magnetic material, known.

One of these methods is that by punching or Cut out the desired pattern on a metal foil brings the layer to be aligned on this film and under the film generates a magnetic field of a suitable size, whereby a Alignment of the magnetic pigment particles according to the ge desired pattern should take place. The disadvantage here is that about the mumetal foil no optimal, d. H. complete, Field configuration of the magnetic particles is achieved and that for each sample a new mumetal foil must be prepared.  

According to a second method, a lettering is created directly by Ent driving a permanent magnet into a damp pressure wrote. It is up to the alignment of the pigment particles but a certain exposure time of the magnetic field, i. H. a long same movement of the magnet, which is why the layer is required in some cases even before the "write" process has ended is drying.

A third method involves using a magnetic field combined with UV light treatment to harden the layer. In this complicated variant, the wet layer is over exposed to a photomask, then the pigment particles in the magnetically aligned still wet areas, and then the entire layer is cured by UV light.

The object of the invention was to address the above-mentioned defects help and provide a practical alignment procedure.

Accordingly, a method of manufacturing three-dimensional Coatings having optical effects by alignment found magnetically orientable, platelet-shaped pigments, which is characterized in that the pigments in the liquid coating by the magnetic field of a previously like Align the configured flat transfer medium tet.

Suitable as a magnetizing sheet-like transfer medium for the process according to the invention in particular plastic films, into which hard magnetic particles are incorporated, it could however, use other sheet-like magnetic designs who the.

The plastic films can be placed on a thin support, e.g. B. a Kle foil, be applied, but it is preferably carrier-free materials, especially magnetic foils or magnetic foils or magnetic tapes, as are generally available commercially are. The thickness of these materials is usually 0.1 to 5 mm.

The hard magnetic particles contained in the plastic films can consist, for example, of the following hard magnetic materials:
Hard ferrites such as barium and strontium ferrite; Rare earth alloys such as samarium / cobalt alloys; the AlNiCo group; Metal oxides that are used for magnetic information storage, such as cobalt-containing γ-iron (III) oxide, chromium dioxide or pure iron particles.

Typical dimensions of the hard magnetic particles are in generally a few 10 µm down to 10 to 20 nm.

The production of the magnetic particles can be carried out in a conventional manner, e.g. B. by sintering or quick quenching and subsequent chopping change.

The magnetic properties of the transfer medium do not have to be meet special requirements, but materials with ho saturation magnetization is generally advantageous. Still is it is advantageous if the coercive field strength is approximately the same size is like the magnetization of the entire transfer medium, this is but not required.

The thickness of the transfer medium preferably corresponds to 0.3 to 3 times the desired resolution in the finished effect coating solution.

In the method according to the invention, the desired three dimensional optical effects on the magnetic field of the previously ent appropriately configured transfer medium on the magnetic orientable platelet-shaped pigments in the still moist Transfer coating (e.g. printing or painting).

It is advisable to first unify the transfer medium Lich magnetize, d. H. all magnetic particles of the transfer medium um uniform (preferably perpendicular to the surface of the transfer mediums), and so existing magnetization remove pattern. This is conveniently done with the help of a strong, large-area permanent magnets, e.g. B. based on Neo dym / iron / boron alloys such as Nd₂Fe₁₄B.

The subsequent configuration of the transfer medium, i. H. the targeted magnetic reversal of the partial magnets, for inscribing the desired information or the three-dimensional pattern, can particularly advantageous due to the relative movement of the transfer medium either to (between) the pole pieces of a two-sided electric magnets or to the pole piece of a one-sided, only on one Side equipped with a pole piece, designed like a pin Electromagnets are made.

Preferred embodiments of the two-sided and one-sided of the embodiments are shown schematically in Fig. 1 and Fig. Mapped. 2

Fig. 1 shows the preferred vertical arrangement of the moving transfer medium (T) in the gap of a two-sided equipped with pole pieces (P) electromagnets.

In FIG. 2, the preferred vertical arrangement of the turn movable transfer medium (T) to the pole piece (P) is shown of the single-sided pin-like executed electromagnet. In order to make the magnetic table more effective, it is recommended that in the one-sided version a partial magnetic conclusion by placing a soft magnetic plate (W), z. B. from egg sen to produce.

Of course, the coils (S) can be switched on in both cases whose positions of the magnetic circuit are oriented or completely or partially replaced by permanent magnets.

In order to achieve a good resolution during the writing, 2 is recommended, as in Fig. 1 and Fig. Indicated, the use of a tapered pole pieces. The diameter in the pole shoe tip depends on the desired spatial resolution in the effect coating and is usually about 0.3 to 3 times this resolution.

The field strength in the gap of the two-sided electromagnet or the Field strength in front of the pole of the one-sided electromagnet (pin) preferably corresponds to the coercive field strength of the transfer medium.

The two-sided design of the electromagnet results in Re gel better resolution of the registered three-dimensional Pattern. However, the one-sided pen-like design is light to handle. Depending on the requirements, you will become the give preference to one or the other version.

It is also a good idea to start the enrollment process (i.e. the con figure of the transfer medium) automated with the help of a Perform plotters. Depending on the geometry, it is advantageous ter, the transfer medium or the magnet (or both) movable to arrange. In this way, lettering or graphics di be transferred directly from a computer to the transfer medium.

For the subsequent transfer of the three-dimensional pattern the magnetic pigment-containing coating or with the Magnetic pigments coated (according to common methods printed, lacquered or coated) material (e.g. foil, Pa pier, cardboard or (preferably non-magnetic) metal) configured transfer medium as complete and even as possible ugly with the still wet coating (printing or painting),  in which the pigment particles are still mobile, in contact brings. The coated material is preferably simply applied placed the transfer medium.

With the aid of the method according to the invention, all can be magnetic Orientable, platelet-shaped pigments easily and specifically be aligned. Examples are those in US Pat. No. 2,570,856 listed ferromagnetic metal plates and those in the DE-A-39 38 055 listed mica and aluminum flakes, the are coated with magnetite, and those in DE-A-43 13 541 and the older German patent application P 43 40 141.4 level aluminum platelets with an inner iron, cobalt, Layer containing nickel or γ-iron <III) oxide (maghemite), a further non-ferromagnetic metal oxide layer and / or an outer passivating phosphate, chromate and / or vana the layer containing it are covered.

Particularly noteworthy are those in the older German patent registration P 44 19 173.1 described aluminum plate, the a multiple coating with (A) iron, cobalt, nickel, magnetite and / or γ-Fe₂O₃, (B) silicon oxide and / or aluminum oxide, (C) Me tall and / or non-selectively absorbing metal oxide. For varnishes or prints that contain these pigments, who that the three-dimensional effects are not just of the usual Light / dark flop, but also from a color change between the Interference colors accompanied.

As a rule, the exposure times to align the Pigment particles only 1 regardless of the complexity of the patterns up to 100 sec

Depending on the type of coating medium (for example, see here the DE-A-39 38 055 referenced) can the subsequent drying course, according to which the pigment particles and thus the three-dimensional len optical effects are fixed by an additional UV-Be radiation are accelerated.

With the help of the method according to the invention, three dimensions nale optical effects advantageous by simply adjusting the Process parameters (pole shoe diameter and field strength of the Ma conditions, contact time, thickness and coercivity of the transfer mediums) safely and with the desired (good) resolution, d. H. with the desired contrast and strength, in ma gnetically orientable, containing platelet-shaped pigments Coatings such as printing or painting can be created. The present method stands out due to its low Time requirements (short registration times and short transmission time  ten), the reusability of the transfer medium with the help a strong permanent magnet at all times uniformly magneti can be siert and then again for further enrollment processes is available, and the possibility of automation through computer control, especially through its economy out.

Examples

A commercially available, 1 mm thick barium ferrite containing magnet adhesive film (from IBS, Berlin) was removed after the complete opening magnetization with a strong permanent magnet (Nd₂Fe₁₄B) under Repeated movement at a speed of about 1 cm / sec with the help of an electro equipped on both sides with pole pieces magnets (pole shoe distance about 1 mm, 2 coils with 480 windings each gen) described with a zigzag pattern.

The pole shoe diameter and current were as in the table given varies.

The magnetic film described was then in each case for A screen print still wet was placed for 60 sec.

The screen prints used for this were each by printing (49er sieve) of a screen printing ink containing 20 g of magnetizable pig ment (Example 1 of DE-A-43 13 541) in 80 g of a commercially available Chen binder solution (copolymer based on vinyl chloride and vinyl isobutyl ether Laroflex® MP45 / acetate / Alipha ten) applied to paper or foil.

The zigzag pattern was dry in all cases clearly visible and could not be copied unchanged.

More details on these experiments and their results can be found in the following table.

table

Claims (8)

1. A process for the production of three-dimensional optical effects-containing coatings by aligning magnetically orientable, platelet-shaped pigments, characterized in that the pigments in the still liquid coating are aligned by the magnetic field of a previously magnetically confi gured sheet-like transfer medium. 2. The method according to claim 1, characterized in that one contain a hard magnetic particle as transfer medium the plastic film, which is placed on an additional support can be used. 3. The method according to claim 1 or 2, characterized in that a magnetic foil or a magnetic tape is used as the transfer medium used. 4. The method according to claims 1 to 3, characterized in net that the magnetic configuration of the transfer media in order for its uniform magnetization through movement between the two tapered pole pieces of an elec tromagnet makes. 5. The method according to claims 1 to 3, characterized in net that the magnetic configuration of the transfer media in order to uniformize it with a pen well-designed, one-sided electromagnet, given if in the presence of a soft magnetic pad takes. 6. The method according to claim 4 or 5, characterized in that the configuration medium perpendicular to the configuration Arranges pole pieces. 7. The method according to claims 4 to 6, characterized in net that one uses a pole piece diameter, which is approximately corresponds to the thickness of the transfer medium. 8. The method according to claims 4 to 7, characterized in net that you have a field strength in the gap of the electromagnet used, which is roughly the coercive force of the transfer mediums corresponds.